Journal of Sensor Research and Technologies (e-ISSN: 3048-9709)

Global shift away from electricity generated by outdated fossil fuels is being driven by climate fluctuation, pollution, and energy security. One of the most promising and capable technologies on the market today is electricity produced by photovoltaic solar panels, which will help the world transition away from fossil fuels and toward renewable energy sources. It might be argued that producing this electricity at the point of use is the most optimal location. Installing solar panels on newly constructed rooftops can help meet the demand for electricity during construction. The amount of power that can be produced in the Ontarion city of Waterloo is listed in this study. A range of likely values were computed using data from Natural Resources Canada, literature examples, and current rooftop solar statistics to illustrate the potential benefits that rooftop solar panels could offer the City of Waterloo. The range of values showed the total potential for rooftop solar power electricity generation in the best-case and worst-case scenarios with optimal secondary distribution systems. economical cast. In order to illustrate the potential that each subdivision could have for the City, a generic value was then computed based on the total accessible area for five distinct land use types. In order to further investigate the possibilities depending on each land use type, a range of values was also practical to the biggest and collective regular rooftop size for each land use type.

Deetjen, T. A., Vitter, J. S., Reimers, A. S., & Webber, M. E. (2018). Optimal dispatch and equipment sizing of a residential central utility plant for improving rooftop solar integration. Energy, 147, 1044-1059.

Hopkins, M. D., Pahwa, A., & Easton, T. (2012). Intelligent dispatch for distributed renewable resources. IEEE Transactions on Smart Grid, 3(2), 1047-1054.

McLarty, D., Sabate, C. C., Brouwer, J., & Jabbari, F. (2015). Micro-grid energy dispatch optimization and predictive control algorithms; A UC Irvine case study. International Journal of Electrical Power & Energy Systems, 65, 179-190.

Ogunmodede, O., Anderson, K., Cutler, D., & Newman, A. (2021). Optimizing design and dispatch of a renewable energy system. Applied Energy, 287, 116527.

Toopshekan, A., Ahmadi, E., Abedian, A., & Rad, M. A. V. (2024). Techno-economic analysis, optimization, and dispatch strategy development for renewable energy systems equipped with Internet of Things technology. Energy, 296, 131176.

Emmanuel, M., & Rayudu, R. (2017). Evolution of dispatchable photovoltaic system integration with the electric power network for smart grid applications: A review. Renewable and Sustainable energy reviews, 67, 207-224.

Ahsan, S. M., Khan, H. A., Hassan, N. U., Arif, S. M., & Lie, T. T. (2020). Optimized power dispatch for solar photovoltaic-storage system with multiple buildings in bilateral contracts. Applied energy, 273, 115253.